|
Functions |
| | if (nargin< 2) x |
| | if (mx!=my) error("x and y must have the same number of observations") |
| | while (abs(dl'*(d2l\dl)/length(dl)) > tol) iter |
| else | while ((dev-devold)/(dl'*(tb-tbold)) > 0) epsilon |
| | if (epsilon > 1e+15) error("epsilon too large") |
| | disp ("epsilon") |
| | disp (epsilon) |
| | if (print==2) disp("Iteration") |
| | disp (iter) |
| | disp ("Deviance") |
| | disp (dev) |
| | disp ("First derivative") |
| | disp (dl') |
| | disp ("Eigenvalues of second derivative") |
| | disp (eig(d2l)') |
| | if (print >=1) printf("\n") |
| | printf ("Logistic Regression Results:\n") |
| | printf ("\n") |
| | printf ("Number of Iterations: %d\n", iter) |
| | printf ("Deviance: %f\n", dev) |
| | printf ("Parameter Estimates:\n") |
| | printf (" Theta S.E.\n") |
| endfor | if (nx > 0) printf(" Beta S.E.\n") |
| endfor endif endif | if (nargout==6) if(nx > 0) e |
Variables |
| | function [theta, beta, dev, dl, d2l, p] |
| | endif = logistic_regression_derivatives (x, z, z1, g, g1, p) |
| endif | x = -x |
| | tol = 1e-6 |
| | incr = 10 |
| | decr = 2 |
| | ymin = min (y) |
| | ymax = max (y) |
| | yrange = ymax - ymin |
| | z = (y * ones (1, yrange)) == ((y * 0 + 1) * (ymin : (ymax - 1))) |
| | z1 = (y * ones (1, yrange)) == ((y * 0 + 1) * ((ymin + 1) : ymax)) |
| | theta = log (g ./ (1 - g)) |
| | tb = [theta |
| | beta = tb ((nz + 1) : (nz + nx), 1) |
| | epsilon = logistic_regression_likelihood (y, x, tb, z, z1) logistic_regression_derivatives (x, z, z1, g, g1, p) std (vec (d2l)) / 1000 |
| | iter = 0 |
| | tbold = tb |
| | devold = dev |
| | se = sqrt (diag (inv (-d2l))) |
| for | i |
| else | e = (y * 0 + 1) * theta' |
